/******************************************************************************

Project:           OLCD Terminal and programming tool (based on lpc21isp project)

Filename:          lpc21isp.c
Compiler:          Microsoft VC 6/7, Microsoft VS2008, GCC Cygwin, GCC Linux, GCC ARM ELF
Author:            Based on original lpc21isp code by Martin Maurer (Martin.Maurer@clibb.de)
Copyright:         (c) Omnima Limited 2010
Portions Copyright 
                   (c) Martin Maurer 2003-2010, All rights reserved
                   (c) by Aeolus Development 2004 http://www.aeolusdevelopment.com

    This file is part of lpc21isp.

    lpc21isp is free software: you can redistribute it and/or modify
    it under the terms of the GNU Lesser General Public License as published by
    the Free Software Foundation, either version 3 of the License, or
    any later version.

    lpc21isp is distributed in the hope that it will be useful,
    but WITHOUT ANY WARRANTY; without even the implied warranty of
    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
    GNU Lesser General Public License for more details.

    You should have received a copy of the GNU Lesser General Public License
    and GNU General Public License along with lpc21isp.
    If not, see <http://www.gnu.org/licenses/>.
*/

#if defined(_WIN32)
#if !defined __BORLANDC__
#include "StdAfx.h"        // Precompiled Header for WIN32
#endif
#endif // defined(_WIN32)
#include "lpc21isp.h"   // if using propriatory serial port communication (customize attached lpc21isp.h)
#include "adprog.h"
#include "lpcprog.h"
#include "lpcterm.h"

/*
Change-History:

1.00  2004-01-08  Initial Version, tested for MSVC6/7 and GCC under Cygwin
1.01  2004-01-10  Porting to Linux (at least compiling must work)
1.02  2004-01-10  Implemented conversion intel hex format -> binary
1.03  2004-01-25  Preparation to upload to public website
1.04  2004-02-12  Merged in bugfixes by Soeren Gust
1.05  2004-03-14  Implement printing of error codes as text / strings
1.06  2004-03-09  Merged in bugfixes by Charles Manning:
                  The '?' sychronisation does not reliably respond to the first '?'.
                  I added some retries.
                  The LPC2106 sometimes responds to the '?' by echoing them back.
                  This sometimes causes an attempt to match "?Synchonized".
                  Added code to strip off any leading '?'s.
                  Timeouts were too long.
                  Change from RTS/CTS to no flow control.
                  Done because many/most people will use only 3-wire comms.
                  Added some progress tracing.
1.07  2004-03-14  Implement handling of control lines for easier booting
1.08  2004-04-01  Bugfix for upload problem
1.09  2004-04-03  Redesign of upload routine
                  Now always 180 byte blocks are uploaded, to prevent
                  small junks in uuencoding
1.10  2004-04-03  Clear buffers before sending commands to LPC21xx,
                  this prevents synchronizing errors when previously loaded
                  program does a lot of output, so FIFO of PC runs full
1.11  2004-04-03  Small optimization for controlling reset line
                  otherwise termonly starts LPC twice, free PC buffers
1.12  2004-04-04  Add switch to enable logging terminal output to lpc21isp.log
1.13  2004-05-19  Merged in improvement by Charles Manning:
                  Instead of exiting the wrong hex file size is corrected
1.14  2004-07-07  Merged in improvement by Alex Holden:
                  Remove little/big endian dependancy
1.15  2004-09-27  Temporary improvement by Cyril Holweck:
                  Removed test (data echoed = data transmited) on the main
                  data transfert, since this was the biggest failure
                  reason and is covered by checksome anyway.
                  Added COMPILE_FOR_LPC21, to have target dump it's own
                  memory to stdout.
1.16  2004-10-09  Merged in bugfix / improvement by Sinelnikov Evgeny
                  I found out that Linux and Windows serial port initialization
                  are different with pinouts states. My board don't get
                  reset signal at first cycle of DTR pinout moving.
                  And I add this moving to initalization cycle.
1.17  2004-10-21  Changes by Cyril Holweck
                  Divide main, take out the real programming function, that can
                  also be used by a target to copy its own code to another.
1.18  2004-10-26  Changes by Cyril Holweck
                  Added a "G 0 A\r\n" at end of programming to run code.
1.19  2004-11-03  Changes by Robert Adsett
                  Add support for Analog Devices.
                  Separate file load from programming.
                  Change from a debug on/off flag to debug level
                  Remove if (debug) tests and replace with DebugPrintf
                  statements.
                  Change serial I/O and timing so that the system
                  dependancies are isolated to a few portability functions.
                  Add support for binary serial I/O.
                  Add doxygen support.
1.20  2004-11-07  Preparation for multiport booting (factory support)
1.21  2004-11-08  Bugfix from Robert Adsett
                  BinaryLength was not initialized
1.22  2004-11-08  Changes from Cyril Holweck / Evgeny Sinelnikov
                  Forgotten IspEnvironment-> and bugfixes if COMPILE_FOR_LINUX
                  If COMPILE_FOR_LPC21, PhilipsDownload() 'acts as' main():
                  - it should not be static and should return int.
                  - no sub-function can use exit() but only return ()
                  Use 'char' instead of 'byte' ;)
1.23  2005-01-16  Build in automatic detection of LPC chiptype
                  (needed for 256 KByte support)
1.24B 2005-06-02  Changes by Thiadmer Riemersma: completed support for other
                  chip types (LPC213x series and others).
1.24C 2005-06-11  Changes by Thiadmer Riemersma: added the device ID codes for
                  chip types LPC2131 and LPC2132.
1.25  2005-06-19  Martin Maurer: Setup more parameters in DCB,
                  otherwise wrong code is downloaded (only Windows and Cygwin)
                  when a previous program has changed these parameters
                  Check exact string of "G 0 A\r\n0\r\n" instead of whole received buffer,
                  to prevent checking of already received by program start
                  (error on running program, but reports CMD_SUCCESS)
                  Add ifdefs for all baudrates (needed only for high baudrate,
                  which seem to be not available on Macs...)
1.26  2005-06-26  Martin Maurer:
                  Correct check again: "G 0 A\r\n0\r\n" is cutted, because of reboot
                  (error on running program, but reports CMD_SUCCESS)
1.27  2005-06-29  Martin Maurer:
                  Add LPC chip ID's (thanks to Robert from Philips) for
                  missing LPC213x and upcoming new LPC214x chips
                  (currently untested, because i don't have access to these chips,
                  please give me feedback !)
1.28  2005-07-27  Anders Rosvall / Embedded Artists AB:
                  Changed the reset timeout to 500 ms when entering the bootloader.
                  Some external reset controllers have quite long timeout periods,
                  so extening the timeout delay would be a good thing.
1.29  2005-09-14  Rob Jansen:
                  Added functionality to download to RAM and run from there.
                  In LoadFile() added record types 04 (Extended Linear Address Record)
                  and 05 (Start Linear Address Record), added address offset
                  (IspEnvironment->BinaryOffset) and start address (...->StartAddress).
                  Changed PhilipsDownload to skip all Flash prepare/erase/copy commands.
                  Note: Tested with VC7 only
1.30   2005-10-04 Rob Jansen:
                  - forgot to change the version string in 1.29
                  - Wrong text in LoadFile corrected (printed text mentions record type 05,
                    this should be 04
                  - Changed LoadFile to accept multiple record types 04
                  - Changed LoadFile to check on memory size, will not load more than x MB
                    if linear extended address records are used
1.31   2005-11-13 Martin Maurer: Thanks to Frank Gutmann
                  Updated number of sectors in device table
                  for LPC2194, LPC2292 and LPC2294
1.32   2005-12-02 Martin Maurer: Corrected missing control of RTS/DTR
                  in case user selected -termonly and -control
                  Small correction (typo in debug)
1.33   2006-10-01 Jean-Marc Koller:
                  Added support for MacOS X (difference on how to set termios baudrate).
1.34   2006-10-01  Cyril Holweck:
                  Made it compile again for lpc21isp
                  Added const keyword to constant variables to make it better
                  code for embeded target. (decrease RAM usage)
                  Replaced all regular call to printf() by DebugPrintf()
                  Removed call to scanf() (not much usefull and cost a lot to my target)
1.35   2006-22-01 Cyril Holweck
                  Added feature for LPC21: will start downloading at Sector 1 and upward,
                  to finish with Sector 0, the one containing the checksum controling BSL entry
1.36   2006-25-01 Cyril Holweck
                  PhilipsDownload() will now return a unique error code for each error
1.37   2006-10-03 Jeroen Domburg
                  Added LPC2103 (and only the 2103, I can't find the IDs for 2101/2102)
                  Corrected a loop which occured if the program completely fits in sector 0
1.38   2007-01-05 Ray Molenkamp
                  Added feature for LPC21: Wipe entire device before programming to enable
                  reflashing of chips with the lpc codeprotection feature enabled.
1.39   2007-01-12 Martin Maurer
                  Added initial support for new processors LPC23xx and LPC24xx
1.40   2007-01-22 Martin Maurer
                  Correction of chip id of LPC2458
1.41   2007-01-28 Jean-Marc Koller
                  Modified Terminal() to disable ECHO with termios only once, instead of
                  modifying and restoring termios in each getch and kbhit call (which caused
                  a strange echo behaviour in MacOS X).
1.42   2007-01-28 Rob Probin
                  Added -localecho command to allow local echoing in terminal mode for use
                  where target does not echo back keystrokes.
1.43   2007-01-29 Martin Maurer
                  Moved keyboard handling routines to own subroutines,
                  so they can be used during aborting synchronisation.
                  Newest cygwin made problems, StringOscillator always contained '\0x0d'
                  at the end, when calling lpc21isp from batch file
1.44   2007-02-23 Yang Yang
                  Added feature for LPC21: Verify the data in Flash after every writes
                  to sector. To detect errors in writing to Flash ROM.
1.45   2007-02-25 Martin Maurer
                  Replace printf syntax of DumpString by a simple pointer to a string
                  printf syntax is a nice thing, but it is not working :-(
                  and therefore makes debugging much more difficult...
                  Moved VERSION_STR to top of file to avoid possible cosmetical errors
1.46   2007-02-25 Martin Maurer
                  Again corrected debug output: should solve output of
                  (FFFFFFB5) instead of (B5)
1.47   2007-02-27 Robert Adsett
                  Raised timeout on AD send packet function.
1.48   2007-04-20 Martin Maurer
                  Thanks to Josef Wolf for preventing to overwrite over end of array
1.49   2007-10-16 New Option -halfduplex allow single wire using.
                  Implemented and tested only for Windows. Data Resend implemented.
1.50   2007-10-31 Changes by Simon Ellwood
                  Formated the code for readablity
                  Fixed some c++ compiler issues
1.51   2007-11-20 Changes by Simon Ellwood
                  Split into seperate files
                  Made more modular so when used in an embedded mode only the required code is built
1.52   2008-01-22 Changes by Manuel Koeppen
                  Made compileable again for linux and windows
                  Fixed bug in ClearSerialPortBuffers (linux)
1.53   2008-02-25 Changes by Michael Roth
                  Get priority of debug messages wih -control right
1.54   2008-03-03 Martin Maurer
                  Try to bring lpc21isp back to a useable state in Windows, Cygwin, Linux and Mac OS.
                  Merged in changes by Erika Stefanini, which were done only for old version 1.49:
                  Added device ids for revision B chips
1.55   2008-03-03 Martin Maurer
                  Thanks to Fausto Marzoli, bugfix for compiling latest version under Linux
1.56   2008-04-01 Steve Franks
                  Integrate FreeBSD patch.
                  Add support for swapping and/or inverting RTS & DTR
1.57   2008-04-06 Mauricio Scaff
                  Changed OpenSerialPort to work with MacOS
                  Corrected the number of sectors in some 512K devices (28 instead of 27)
                  Added support for LPC2387 and LPC2388
                  Defined BL error 19 (Code Protected)
1.58   2008-05-10 Herbert Demmel dh2@demmel.com
                  I had the special requirement to integrate the program into my own Windows
                  software compiled with Borland C++ Builder 5. I had to do some minor changes
                  for Borland (see defined __BORLANDC__) and modified to code slightly to have
                  some simple callbacks for screen i/o (see define INTEGRATED_IN_WIN_APP).
                  Please notet that I don *not* check / modify the part for AnalogDevices !!
                  Besides that I fixed some minor issues:
                  added dcb.fOutxCtsFlow = FALSE and dcb.fOutxDsrFlow = FALSE (sometimes required)
                  Now comparing one character less of answer to "Now launching ... code" command
1.59   2008-07-07 Peter Hayward
                  Fixed freeze under Windows XP SP2 by removing redundant call to SetCommMask.
1.60   2008-07-21 Martin Maurer
                  Added uptodate part ids for LPC2458, LPC2468 and LPC2478
                  Add comment "obsolete" for older part ids for LPC2458 and LPC2468
                  Add ", " between compile date and time
1.61   2008-10-21 Fausto Marzoli (thanks to Geoffrey Wossum for the patches)
                  Fix for compiling latest version under Linux and "ControlLinesSwapped" issue
1.62   2008-11-19 Martin Maurer
                  Added (untested) support for LPC2109
                  Added (untested) support for LPC2361 / LPC2362
                  Heavy update of part identification number of LPC23xx and LPC24xx
                  Correct bug, that hex file must exist, when "-detectonly" is used
                  Correct Makefile.vc: use /Fe instead of -o
1.63   2008-11-23 Martin Maurer
                  Changed to GNU Lesser General Public License
1.64   2009-01-19 Steve Franks
                  __FREEBSD__ changed to __FreeBSD__ at some point, plus other com port fixes
1.65   2009-03-26 Vito Marolda
                  Added pre-erasure of sector 0 to invalidate checksum before starting
                  modification of the other sectors, so that the bootloader restarts
                  if programming gets aborted while writing on a non-empty part.
1.66   2009-03-26 Vito Marolda
                  Corrected interpretation of intel hex record 03 which is execution start address
                  and not data segment address
1.67   2009-04-19 SASANO Takayoshi
                  Add OpenBSD support
1.68   2009-05-17 Martin Maurer
                  Merge in changes done by Bruno Quoitin (baudrate problem when __APPLE__ is used)
                  Remove TABs from source code and replaced them with spaces
1.69   2009-06-18 Martin Maurer
                  Add support for LPC17xx devices
1.70   2009-06-29 Martin Maurer
                  Further improvement of LPC17xx support
                  Workaround for booter (4.1) of LPC17xx, which does not echo all sent characters (0D,0A,...)
                  ISP command GO seems to be broken:
                  Sending 'G 196 T(0A)'
                  Answer(Length=15): 'G 196 T(0A)0(0D)(0A)'
                  leads to 'prefetch_abort_exception(0D)(0A)1FFF07A5'
                  No solution known...need your help here...
                  Manual workaround: Use DTR and RTS toggling to start application (e.g. 2 batch files)
1.71   2009-07-19 Martin Maurer
                  Added LPC17xx with CPUID starting with 0x26 (not according user manual)
1.72   2009-09-14 Martin Maurer
                  Add support for LPC13xx devices
1.73   2009-09-14 Martin Maurer
                  Correct again (hopefully the last time) the CPUIDs for some LPC17xx devices
                  (Now according to User Manual LPC17xx Version 00.07 (31 July 2009))
1.74   2009-09-14 Mario Ivancic
                  Added support for multiple HEX files, besed on internal version 1.37B.
                  NOTE: this feature is used in production in 1.37B but is not tested in this version.
                  Added numeric debug level command line switch -debugn, n=[0-5]
                  Added command line scitch -try n to specify nQuestionMarks limit. Defaul: 100
                  Merged in DoNotStart patch from cgommel_new
                  Static functions declarations moved from lpc21isp.h to this file
                  Modified LoadFile() to return error_code instead exit(1)
                  Removed IspEnvironment.debug_level, all code uses global debug_level
1.75   2010-01-05 Martin Maurer
                  Added support for LPC11xx devices (not tested at all)
                  Changed Product in LPC_DEVICE_TYPE from number to string to distinguish new LPC11 devices
                  Changed "unsigned" to "unsigned int" in LPC_DEVICE_TYPE
1.76   2010-02-01 Published test version without source code
1.77   2010-02-01 Martin Maurer
                  Corrected chip id of LPC1342 and LPC1343
                  Added a new chip type for LPC11xx and LPC13xx microcontrollers
                  Use higher area of RAM with LPC11xx and LPC13xx, because lower RAM is occupied by ISP
                  Add code to lpcprog.c to read unique id, but not yet activate.
                  Adapt block sizes for copying for each model of LPC11xx and LPC13xx
1.78   2010-02-16 Martin Maurer
                  Corrected chip id of LPC1751
                  Added support for LPC1759, LPC1767 and LPC1769
1.79   2010-02-19 Andrew Pines
                  Added __APPLE__ flag to CFLAGS in Makefile to detect and handle OS X
                  Added -Wall to Makefile to report warnings more comprehensively
                  Added #define in lpc21isp.h to substitute strnicmp with strncasecmp (needed for Unix)
                  Fixed a few format specifiers in lpcprog.c to eliminate some warnings
1.00   2010-05-20 Added Omnima LPC specific code: detects active com port, new cmd-line options, rewritten 
                  command line parsing code
*/

// Please don't use TABs in the source code !!!
//#include "lpc21isp.h"

// Don't forget to update the version string that is on the next line
#define VERSION_STR "1.00"

#include "platform.h"
#include "olcd.h"
#include "olcddemo.h"

static int AddFileHex(ISP_ENVIRONMENT *IspEnvironment, const char *arg);
static int AddFileBinary(ISP_ENVIRONMENT *IspEnvironment, const char *arg);
static int LoadFile(ISP_ENVIRONMENT *IspEnvironment, const char *filename, int FileFormat);

#define ERR_RECORD_TYPE_LOADFILE    55 /** File record type not yet implemented. */
#define ERR_ALLOC_FILE_LIST 60
#define ERR_FILE_OPEN_HEX   61  /**< Couldn't open hex file. */
#define ERR_FILE_SIZE_HEX   62  /**< Unexpected hex file size. */
#define ERR_FILE_ALLOC_HEX  63  /**< Couldn't allocate enough memory for hex file. */
#define ERR_FILE_ALLOC_BIN  64  /**< Couldn't allocate enough memory for bin file. */
#define ERR_FILE_RECST_HEX  65  /**< Can't find start of record indicator for Intel Hex file.*/
#define ERR_FILE_OPEN_BIN   66  /**< Couldn't open binary file. */
#define ERR_FILE_SIZE_BIN   67  /**< Unexpected binary file size. */
#define ERR_FILE_WRITE_BIN  68  /**< Couldn't write debug binary file to disk. How's that for ironic? */
#define ERR_MEMORY_RANGE    69  /**< Out of memory range. */

unsigned char OpenSerialPort(ISP_ENVIRONMENT *IspEnvironment, const char *baud)
{
   return OOpenSerialPort(&IspEnvironment->io, IspEnvironment->serial_port , baud==0?IspEnvironment->baud_rate:baud);
}

void CloseSerialPort(ISP_ENVIRONMENT *IspEnvironment)
{
    OCloseSerialPort(&IspEnvironment->io);
}

void ClearSerialPortBuffers(ISP_ENVIRONMENT *IspEnvironment)
{
    OClearSerialPortBuffers(&IspEnvironment->io);
}

//Receive
int ReceiveComPortBlockComplete(ISP_ENVIRONMENT *IspEnvironment,
                                void *block, size_t size, unsigned timeout)
{
    return OReceiveComPortBlockComplete(&IspEnvironment->io, block, size, timeout);
}

void ReceiveComPort(ISP_ENVIRONMENT *IspEnvironment,
                    const char *Ans, unsigned int MaxSize,
                    unsigned int *RealSize, unsigned int WantedNr0x0A,
                    unsigned timeOutMilliseconds)
{
    OReceiveComPort(&IspEnvironment->io, Ans, MaxSize, RealSize, WantedNr0x0A, timeOutMilliseconds);
}

//Send
void SendComPort(ISP_ENVIRONMENT *IspEnvironment, const char *s)
{
    OSendComPort(&IspEnvironment->io, s);
}

void SendComPortBlock(ISP_ENVIRONMENT *IspEnvironment, const void *s, size_t n)
{
    OSendComPortBlock(&IspEnvironment->io, s, n);
}

void ControlModemLines(ISP_ENVIRONMENT *IspEnvironment, unsigned char DTR, unsigned char RTS)
{
    OControlModemLines(&IspEnvironment->io, DTR, RTS);
}

/***************************** ReadArguments ****************************/
/**  Reads the command line arguments and parses it for the various
options. Uses the same arguments as main.  Used to separate the command
line parsing from main and improve its readability.  This should also make
it easier to modify the command line parsing in the future.
\param [in] argc the number of arguments.
\param [in] argv an array of pointers to the arguments.
*/
static void ReadArguments(ISP_ENVIRONMENT *IspEnvironment, unsigned int argc, char *argv[])
{
    unsigned int i;

    if (argc > 1)
    {
        for (i = 1; i < argc; i++)
        {
            if (stricmp(argv[i], "-wipe") == 0)
            {
                IspEnvironment->WipeDevice = 1;
                DebugPrintf(3, "Wipe entire device before writing.\n");
                continue;
            }

            if (stricmp(argv[i], "-bin") == 0)
            {
                IspEnvironment->FileFormat = FORMAT_BINARY;
                DebugPrintf(3, "Binary format file input.\n");
                continue;
            }

            if (stricmp(argv[i], "-hex") == 0)
            {
                IspEnvironment->FileFormat = FORMAT_HEX;
                DebugPrintf(3, "Hex format file input.\n");
                continue;
            }

            if (stricmp(argv[i], "-logfile") == 0)
            {
                IspEnvironment->LogFile = 1;
                DebugPrintf(3, "Log terminal output.\n");
                continue;
            }

            if (stricmp(argv[i], "-detectonly") == 0)
            {
                IspEnvironment->DetectOnly  = 1;
                IspEnvironment->ProgramChip = 0;
                DebugPrintf(3, "Only detect LPC chip part id.\n");
                continue;
            }

            if(strnicmp(argv[i],"-debug", 6) == 0)
            {
                char* num;
                num = argv[i] + 6;
                while(*num && isdigit(*num) == 0) num++;
                if(isdigit(*num) != 0) debug_level = atoi( num);
                else debug_level = 4;
                DebugPrintf(3, "Turn on debug, level: %d.\n", debug_level);
                continue;
            }

            if (stricmp(argv[i], "-DoNotStart") == 0)
            {
                IspEnvironment->DoNotStart = 1;
                DebugPrintf(3, "Do NOT start MCU after programming.\n");
                continue;
            }

            if (stricmp(argv[i], "-control") == 0)
            {
                IspEnvironment->ControlLines = 1;
                DebugPrintf(3, "Use RTS/DTR to control target state.\n");
                continue;
            }

			if (stricmp(argv[i], "-DoNotEnterIsp") == 0)
			{
				IspEnvironment->DontSendEnterISP = 1;
				DebugPrintf(3, "Request not to send #@EnterISP.\n");
				continue;
			}

            if (stricmp(argv[i], "-controlswap") == 0)
            {
                IspEnvironment->ControlLinesSwapped = 1;
                DebugPrintf(3, "Use RTS to control reset, and DTR to control P0.14(ISP).\n");
                continue;
            }

            if (stricmp(argv[i], "-controlinv") == 0)
            {
                IspEnvironment->ControlLinesInverted = 1;
                DebugPrintf(3, "Invert state of RTS & DTR (0=true/assert/set, 1=false/deassert/clear).\n");
                continue;
            }

            if (stricmp(argv[i], "-halfduplex") == 0)
            {
                IspEnvironment->io.HalfDuplex = 1;
                DebugPrintf(3, "halfduplex serial communication.\n");
                continue;
            }

            if (stricmp(argv[i], "-ADARM") == 0)
            {
                IspEnvironment->micro = ANALOG_DEVICES_ARM;
                DebugPrintf(2, "Target: Analog Devices.\n");
                continue;
            }

            if (stricmp(argv[i], "-PHILIPSARM") == 0)
            {
                IspEnvironment->micro = PHILIPS_ARM;
                DebugPrintf(2, "Target: Philips.\n");
                continue;
            }

            if (stricmp(argv[i], "-Verify") == 0)
            {
                IspEnvironment->Verify = 1;
                DebugPrintf(2, "Verify after copy RAM to Flash.\n");
                continue;
            }

			if (stricmp(argv[i], "-TermOnly") == 0)
			{
				IspEnvironment->TerminalOnly = 1;
				IspEnvironment->ProgramChip = 0;
				DebugPrintf(2, "Terminal only mode.\n");
				continue;
			}

			if (strnicmp(argv[i], "-upload=", 8) == 0)
			{
				int ret_val;
				if(IspEnvironment->FileFormat == FORMAT_HEX)
				{
					ret_val = AddFileHex(IspEnvironment, &argv[i][8]);
				}
				else
				{
					ret_val = AddFileBinary(IspEnvironment, &argv[i][8]);
				}
				if( ret_val != 0)
				{
					DebugPrintf( 2, "Unknown command line option: \"%s\"\n", argv[i]);
				}
				IspEnvironment->ProgramChip=1;
				continue;
			}
			
			if (strnicmp(argv[i], "-extflash=", 10) == 0)
			{
				IspEnvironment->extflash=&argv[i][10];
				continue;
			}
			
			if (strnicmp(argv[i], "-ssd=", 5) == 0)
			{
				IspEnvironment->ssdFile=&argv[i][5];
				continue;
			}
			
			if (strnicmp(argv[i], "-smjpeg=", 8) == 0)
            {
                IspEnvironment->smjpeg=&argv[i][8];
                continue;
            }
			
            if (strnicmp(argv[i], "-cmd=", 5) == 0)
            {
                IspEnvironment->cmd=&argv[i][5];
                continue;
            }

            if (strnicmp(argv[i], "-demo", 5) == 0)
            {
                IspEnvironment->demoMode=1;
                continue;
            }

			if (strnicmp(argv[i], "-baud=", 6) == 0)
			{
				IspEnvironment->baud_rate = &argv[i][6];
				continue;
			}

			if (strnicmp(argv[i], "-termbaud=", 10) == 0)
			{
				IspEnvironment->term_baud_rate = &argv[i][10];
				continue;
			}

			if (strnicmp(argv[i], "-port=", 6) == 0)
			{
				IspEnvironment->serial_port = &argv[i][6];
				continue;
			}

			if (strnicmp(argv[i], "-oscillator=", 12) == 0)
			{
				strcpy(IspEnvironment->StringOscillator,&argv[i][12]);
				continue;
			}

#ifdef INTEGRATED_IN_WIN_APP
            if (stricmp(argv[i], "-nosync") == 0)
            {
                IspEnvironment->NoSync = 1;
                DebugPrintf(2, "Performing no syncing, already done.\n");
                continue;
            }
#endif

#ifdef TERMINAL_SUPPORT
            if (CheckTerminalParameters(IspEnvironment, argv[i]))
            {
                continue;
            }
#endif

            DebugPrintf( 2, "Unknown command line option: \"%s\"\n", argv[i]);
        }
    }

    if (argc < 5)
    {
        debug_level = (debug_level < 2) ? 2 : debug_level;
    }
/*
    if (argc < 5)
    {
        DebugPrintf(2, "\n"
                       "Portable command line ISP for NXP LPC2000 family and Analog Devices ADUC 70xx\n"
                       "Version " VERSION_STR " compiled for " COMPILED_FOR ": " __DATE__ ", " __TIME__ "\n"
                       "Copyright (c) by Martin Maurer, 2003-2009, Email: Martin.Maurer@clibb.de\n"
                       "Portions Copyright (c) by Aeolus Development 2004, www.aeolusdevelopment.com\n"
                       "\n");

        DebugPrintf(1, "Syntax:  olcd [Options]\n\n"
					   "Example: olcd -> detects active com port and start terminal on this port\n"
					   "Example: olcd -upload=test.hex -> uploads given firmware file to OLCD on auto-detected com port\n"
					   "Example: olcd -upload=test.hex -port=com1 -> uses default 19200bps and 12MHz osc\n"
		               "Example: olcd -upload=test.hex -port=com1 -> uses default 19200bps and 12MHz osc\n"
                       "Example: olcd -upload=test.hex -port=com1 -baud=19200 -oscillator=12000\n"
                       "Example: olcd -port=com1 -> start terminal on com1\n\n"
                       "Options:\"
					   "  -port=comport  communication port to use, default is auto\n"
					   "  -bin           for uploading binary file\n"
                       "  -upload=file   specifies the firmware file to upload\n"
                       "  -baud=speed    bps to use, default is 19200bps\n"
					   "  -donotenterisp Don't force the LPC21XX to enter ISP mode\n"
					   "  -termbaud=bps  bps to use, default is 115200bps\n"
					   "  -oscillator=hz Xtal frequency in Hz, for example 12000, default is 12000\n"
                       "  -hex           for uploading file in intel hex format (default)\n"
                       "  -term          for starting terminal after upload\n"
                       "  -termonly      for starting terminal without an upload\n"
                       "  -localecho     for local echo in terminal\n"
                       "  -detectonly    detect only used LPC chiptype (PHILIPSARM only)\n"
                       "  -debug0        for no debug\n"
                       "  -debug3        for progress info only\n"
                       "  -debug5        for full debug\n"
                       "  -donotstart    do not start MCU after download\n"
                       "  -try<n>        try n times to synchronise\n"
                       "  -wipe          Erase entire device before upload\n"
                       "  -control       for controlling RS232 lines for easier booting\n"
                       "                 (Reset = DTR, EnableBootLoader = RTS)\n"
#ifdef INTEGRATED_IN_WIN_APP
                       "  -nosync        Do not synchronize device via '?'\n"
#endif
                       "  -controlswap   swap RS232 control lines\n"
                       "                 (Reset = RTS, EnableBootLoader = DTR)\n"
                       "  -controlinv    Invert state of RTS & DTR \n"
                       "                 (0=true/assert/set, 1=false/deassert/clear).\n"
                       "  -verify        Verify the data in Flash after every writes to\n"
                       "                 sector. To detect errors in writing to Flash ROM\n"
                       "  -logfile       for enabling logging of terminal output to lpc21isp.log\n"
                       "  -halfduplex    use halfduplex serial communication (i.e. with K-Line)\n"
                       "  -ADARM         for downloading to an Analog Devices\n"
                       "                 ARM microcontroller ADUC70xx\n"
                       "  -PHILIPSARM    for downloading to a microcontroller from\n"
                       "                 NXP(Philips) LPC13xx/LPC17xx/LPC2000 family (default)\n");

        exit(1);
    }
*/
    if (IspEnvironment->micro == PHILIPS_ARM)
    {
        // If StringOscillator is bigger than 100 MHz, there seems to be something wrong
        if (strlen(IspEnvironment->StringOscillator) > 5)
        {
            DebugPrintf(1, "Invalid crystal frequency %s\n", IspEnvironment->StringOscillator);
            exit(1);
        }
    }
}

/***************************** ResetTarget ******************************/
/**  Resets the target leaving it in either download (program) mode or
run mode.
\param [in] mode the mode to leave the target in.
*/
void ResetTarget(ISP_ENVIRONMENT *IspEnvironment, TARGET_MODE mode)
{
    if (IspEnvironment->ControlLines)
    {
        switch (mode)
        {
        /* Reset and jump to boot loader.                       */
        case PROGRAM_MODE:
            ControlModemLines(IspEnvironment, 1, 1);
            Sleep(100);
            ClearSerialPortBuffers(IspEnvironment);
            Sleep(100);
            ControlModemLines(IspEnvironment, 0, 1);
            //inter delay is the Reset signal is conected to an external rest controller
            Sleep(500);
            // Clear the RTS line after having reset the micro
            // Needed for the "GO <Address> <Mode>" ISP command to work */
            ControlModemLines(IspEnvironment, 0, 0);
            break;

        /* Reset and start uploaded program                     */
        case RUN_MODE:
            ControlModemLines(IspEnvironment, 1, 0);
            Sleep(100);
            ClearSerialPortBuffers(IspEnvironment);
            Sleep(100);
            ControlModemLines(IspEnvironment, 0, 0);
            Sleep(100);
            break;
        }
    }
}

#if !defined COMPILE_FOR_LPC21
/***************************** Ascii2Hex ********************************/
/**  Converts a hex character to its equivalent number value. In case of an
error rather abruptly terminates the program.
\param [in] c the hex digit to convert.
\return the value of the hex digit.
*/
static unsigned char Ascii2Hex(unsigned char c)
{
    if (c >= '0' && c <= '9')
    {
        return (unsigned char)(c - '0');
    }

    if (c >= 'A' && c <= 'F')
    {
        return (unsigned char)(c - 'A' + 10);
    }

    if (c >= 'a' && c <= 'f')
    {
        return (unsigned char)(c - 'a' + 10);
    }

    DebugPrintf(1, "Wrong Hex-Nibble %c (%02X)\n", c, c);
    exit(1);

    return 0;  // this "return" will never be reached, but some compilers give a warning if it is not present
}


/***************************** AddFileHex *******************************/
/**  Add a file to the list of files to read in, flag it as hex format.
\param [in] IspEnvironment Programming environment.
\param [in] arg The argument that was passed to the program as a file name.
\return 0 on success, an error code otherwise.
*/
static int AddFileHex(ISP_ENVIRONMENT *IspEnvironment, const char *arg)
{
    FILE_LIST *entry;

    // Add file to list.  If cannot allocate storage for node return an error.
    entry = malloc(sizeof(FILE_LIST));
    if( entry == 0)
    {
        DebugPrintf(1, "Error %d Could not allocated memory for file node %s\n", ERR_ALLOC_FILE_LIST, arg);
        return  ERR_ALLOC_FILE_LIST;
    }

    // Build up entry and insert it at the start of the list.
    entry->name = arg;
    entry->prev = IspEnvironment->f_list;
    entry->hex_flag = 1;
    IspEnvironment->f_list = entry;

    return 0;       // Success.
}


/***************************** AddFileBinary ****************************/
/**  Add a file to the list of files to read in, flag it as binary format.
\param [in] IspEnvironment Programming environment.
\param [in] arg The argument that was passed to the program as a file name.
\return 0 on success, an error code otherwise.
*/
static int AddFileBinary(ISP_ENVIRONMENT *IspEnvironment, const char *arg)
{
    FILE_LIST *entry;

    // Add file to list. If cannot allocate storage for node return an error.
    entry = malloc(sizeof(FILE_LIST));
    if( entry == 0)
    {
        DebugPrintf( 1, "Error %d Could not allocated memory for file node %s\n", ERR_ALLOC_FILE_LIST, arg);
        return  ERR_ALLOC_FILE_LIST;
    }

    // Build up entry and insert it at the start of the list.
    entry->name = arg;
    entry->prev = IspEnvironment->f_list;
    entry->hex_flag = 0;
    IspEnvironment->f_list = entry;

    return 0;       // Success.
}

/***************************** LoadFile *********************************/
/**  Loads the requested file to download into memory.
\param [in] IspEnvironment  structure containing input filename
\param [in] filename	the name of the file to read in.
\param [in] FileFormat	the format of the file to read in (FORMAT_HEX or FORMAT_BINARY)
\return 0 if successful, otherwise an error code.
*/
static int LoadFile(ISP_ENVIRONMENT *IspEnvironment, const char *filename, int FileFormat)
{
    int            fd;
    int            i;
    int            BinaryOffsetDefined;
    unsigned int  Pos;
    unsigned int  FileLength;
    BINARY        *FileContent;              /**< Used to store the content of a hex */
                                             /*   file before converting to binary.  */
    unsigned int  BinaryMemSize;

    fd = open(filename, O_RDONLY | O_BINARY);
    if (fd == -1)
    {
        DebugPrintf(1, "Can't open file %s\n", filename);
        return ERR_FILE_OPEN_HEX;
    }

    FileLength = lseek(fd, 0L, 2);      // Get file size

    if (FileLength == (unsigned int)-1)
    {
        DebugPrintf(1, "\nFileLength = -1 !?!\n");
        return ERR_FILE_SIZE_HEX;
    }

    lseek(fd, 0L, 0);

    // Just read the entire file into memory to parse.
    FileContent = (BINARY*) malloc(FileLength);

    if( FileContent == 0)
    {
        DebugPrintf( 1, "\nCouldn't allocate enough memory for file.\n");
        return ERR_FILE_ALLOC_HEX;
    }

    BinaryOffsetDefined = 0;

    BinaryMemSize = IspEnvironment->BinaryLength;

    read(fd, FileContent, FileLength);

    close(fd);

    DebugPrintf(2, "File %s:\n\tloaded...\n", filename);

    // Intel-Hex -> Binary Conversion

    if (FileFormat == FORMAT_HEX)
    {
        unsigned char  RecordLength;
        unsigned short RecordAddress;
        unsigned int  RealAddress = 0;
        unsigned char  RecordType;
        unsigned char  Hexvalue;
        unsigned int  StartAddress;

        DebugPrintf(3, "Converting file %s to binary format...\n", filename);

        Pos = 0;
        while (Pos < FileLength)
        {
            if (FileContent[Pos] == '\r')
            {
                Pos++;
                continue;
            }

            if (FileContent[Pos] == '\n')
            {
                Pos++;
                continue;
            }

            if (FileContent[Pos] != ':')
            {
                DebugPrintf(1, "Missing start of record (':') wrong byte %c / %02X\n", FileContent[Pos], FileContent[Pos]);
                exit(1);
            }

            Pos++;

            RecordLength   = Ascii2Hex(FileContent[Pos++]);
            RecordLength <<= 4;
            RecordLength  |= Ascii2Hex(FileContent[Pos++]);

            DebugPrintf(4, "RecordLength = %02X\n", RecordLength);

            RecordAddress   = Ascii2Hex(FileContent[Pos++]);
            RecordAddress <<= 4;
            RecordAddress  |= Ascii2Hex(FileContent[Pos++]);
            RecordAddress <<= 4;
            RecordAddress  |= Ascii2Hex(FileContent[Pos++]);
            RecordAddress <<= 4;
            RecordAddress  |= Ascii2Hex(FileContent[Pos++]);

            DebugPrintf(4, "RecordAddress = %04X\n", RecordAddress);

            RealAddress = RealAddress - (RealAddress & 0xffff) + RecordAddress;

            DebugPrintf(4, "RealAddress = %08lX\n", RealAddress);

            RecordType      = Ascii2Hex(FileContent[Pos++]);
            RecordType    <<= 4;
            RecordType     |= Ascii2Hex(FileContent[Pos++]);

            DebugPrintf(4, "RecordType = %02X\n", RecordType);

            if (RecordType == 0x00)          // 00 - Data record
            {
                /*
                * Binary Offset is defined as soon as first data record read
                */
                BinaryOffsetDefined = 1;
                // Memory for binary file big enough ?
                while (RealAddress + RecordLength - IspEnvironment->BinaryOffset > BinaryMemSize)
                {
                    if(!BinaryMemSize) BinaryMemSize = FileLength * 2;
                    else BinaryMemSize <<= 1;
                    IspEnvironment->BinaryContent = realloc(IspEnvironment->BinaryContent, BinaryMemSize);
                }

                // We need to know, what the highest address is,
                // how many bytes / sectors we must flash
                if (RealAddress + RecordLength - IspEnvironment->BinaryOffset > IspEnvironment->BinaryLength)
                {
                    IspEnvironment->BinaryLength = RealAddress + RecordLength - IspEnvironment->BinaryOffset;
                    DebugPrintf(3, "Image size now: %ld\n", IspEnvironment->BinaryLength);
                }

                for (i = 0; i < RecordLength; i++)
                {
                    Hexvalue        = Ascii2Hex(FileContent[Pos++]);
                    Hexvalue      <<= 4;
                    Hexvalue       |= Ascii2Hex(FileContent[Pos++]);
                    IspEnvironment->BinaryContent[RealAddress + i - IspEnvironment->BinaryOffset] = Hexvalue;
                }
            }
            else if (RecordType == 0x01)     // 01 - End of file record
            {
                break;
            }
            else if (RecordType == 0x02)     // 02 - Extended segment address record
            {
                for (i = 0; i < RecordLength * 2; i++)   // double amount of nibbles
                {
                    RealAddress <<= 4;
                    if (i == 0)
                    {
                        RealAddress  = Ascii2Hex(FileContent[Pos++]);
                    }
                    else
                    {
                        RealAddress |= Ascii2Hex(FileContent[Pos++]);
                    }
                }
                RealAddress <<= 4;
            }
            else if (RecordType == 0x03)     // 03 - Start segment address record
            {
                unsigned int cs,ip;
                StartAddress = 0;
                for (i = 0; i < RecordLength * 2; i++)   // double amount of nibbles
                {
                    StartAddress <<= 4;
                    if (i == 0)
                    {
                        StartAddress  = Ascii2Hex(FileContent[Pos++]);
                    }
                    else
                    {
                        StartAddress |= Ascii2Hex(FileContent[Pos++]);
                    }
                }
                cs = StartAddress >> 16; //high part
                ip = StartAddress & 0xffff; //low part
                StartAddress = cs*16+ip; //segmented 20-bit space
                DebugPrintf(1,"Start Address = 0x%08X\n", StartAddress);
                IspEnvironment->StartAddress = StartAddress;
            }
            else if (RecordType == 0x04)     // 04 - Extended linear address record, used by IAR
            {
                for (i = 0; i < RecordLength * 2; i++)   // double amount of nibbles
                {
                    RealAddress <<= 4;
                    if (i == 0)
                    {
                        RealAddress  = Ascii2Hex(FileContent[Pos++]);
                    }
                    else
                    {
                        RealAddress |= Ascii2Hex(FileContent[Pos++]);
                    }
                }
                RealAddress <<= 16;
                if (!BinaryOffsetDefined)
                {
                    // set startaddress of BinaryContent
                    // use of LPC_FLASHMASK to allow a memory range, not taking the first
                    // [04] record as actual start-address.
                    IspEnvironment->BinaryOffset = RealAddress & LPC_FLASHMASK;
                }
                else
                {
                    if ((RealAddress & LPC_FLASHMASK) != IspEnvironment->BinaryOffset)
                    {
                        DebugPrintf(1, "New Extended Linear Address Record [04] out of memory range\n");
                        DebugPrintf(1, "Current Memory starts at: 0x%08X, new Address is: 0x%08X",
                            IspEnvironment->BinaryOffset, RealAddress);
                        return ERR_MEMORY_RANGE;
                    }
                }
            }
            else if (RecordType == 0x05)     // 05 - Start linear address record
            {
                StartAddress = 0;
                for (i = 0; i < RecordLength * 2; i++)   // double amount of nibbles
                {
                    StartAddress <<= 4;
                    if (i == 0)
                    {
                        StartAddress  = Ascii2Hex(FileContent[Pos++]);
                    }
                    else
                    {
                        StartAddress |= Ascii2Hex(FileContent[Pos++]);
                    }
                }
                DebugPrintf(1,"Start Address = 0x%08X\n", StartAddress);
                IspEnvironment->StartAddress = StartAddress;
            }
            else
            {
                free( FileContent);
                DebugPrintf( 1, "Error %d RecordType %02X not yet implemented\n", ERR_RECORD_TYPE_LOADFILE, RecordType);
                return( ERR_RECORD_TYPE_LOADFILE);
            }

            while (FileContent[Pos++] != 0x0a)      // Search till line end
            {
            }
        }

        DebugPrintf(2, "\tconverted to binary format...\n");

        // When debugging is switched on, output result of conversion to file debugout.bin
        if (debug_level >= 4)
        {
            int fdout;
            fdout = open("debugout.bin", O_RDWR | O_BINARY | O_CREAT | O_TRUNC, 0777);
            write(fdout, IspEnvironment->BinaryContent, IspEnvironment->BinaryLength);
            close(fdout);
        }

        free( FileContent);		// Done with file contents
    }
    else // FORMAT_BINARY
    {
        IspEnvironment->BinaryContent = FileContent;
        IspEnvironment->BinaryLength = FileLength;
    }

    DebugPrintf(2, "\timage size : %ld\n", IspEnvironment->BinaryLength);

    return 0;
}

/***************************** LoadFiles1 ********************************/
/**  Loads the requested files to download into memory.
\param [in] IspEnvironment structure containing input filename(s).
\param [in] file simple linked list of files to read
\return 0 if successful, otherwise an error code.
*/
static int LoadFiles1(ISP_ENVIRONMENT *IspEnvironment, const FILE_LIST *file)
{
    int ret_val;

    if( file->prev != 0)
    {
        DebugPrintf( 3, "Follow file list %s\n", file->name);

        ret_val = LoadFiles1( IspEnvironment, file->prev);
		if( ret_val != 0)
		{
			return ret_val;
		}
    }

    DebugPrintf( 3, "Attempt to read File %s\n", file->name);
    if(file->hex_flag != 0)
    {
        ret_val = LoadFile(IspEnvironment, file->name, FORMAT_HEX);
    }
    else
    {
		ret_val = LoadFile(IspEnvironment, file->name, FORMAT_BINARY);
    }
    if( ret_val != 0)
    {
		return ret_val;
    }

    return 0;
}

/***************************** LoadFiles ********************************/
/**  Loads the requested files to download into memory.
\param [in] IspEnvironment structure containing input filename(s).
\param [in] file simple linked list of files to read
\return 0 if successful, otherwise an error code.
*/
static int LoadFiles(ISP_ENVIRONMENT *IspEnvironment)
{
	int ret_val;

    ret_val = LoadFiles1(IspEnvironment, IspEnvironment->f_list);
    if( ret_val != 0)
    {
		exit(1); // return ret_val;
    }

	DebugPrintf( 2, "Image size : %ld\n", IspEnvironment->BinaryLength);

    // check length to flash for correct alignment, can happen with broken ld-scripts
    if (IspEnvironment->BinaryLength % 4 != 0)
    {
        unsigned int NewBinaryLength = ((IspEnvironment->BinaryLength + 3)/4) * 4;

        DebugPrintf( 2, "Warning:  data not aligned to 32 bits, padded (length was %lX, now %lX)\n", IspEnvironment->BinaryLength, NewBinaryLength);

        IspEnvironment->BinaryLength = NewBinaryLength;
    }

	// When debugging is switched on, output result of conversion to file debugout.bin
    if(debug_level >= 4)
    {
         int fdout;
		 DebugPrintf( 1, "Dumping image file.\n");
         fdout = open("debugout.bin", O_RDWR | O_BINARY | O_CREAT | O_TRUNC, 0777);
         write(fdout, IspEnvironment->BinaryContent, IspEnvironment->BinaryLength);
         close(fdout);
    }
    return 0;
}
#endif // !defined COMPILE_FOR_LPC21

#ifndef COMPILE_FOR_LPC21
int PerformActions(ISP_ENVIRONMENT *IspEnvironment)
{
    int downloadResult = -1;

    /* Download requested, read in the input file.                  */
    if (IspEnvironment->ProgramChip)
    {
        LoadFiles(IspEnvironment);
    }

	// Open the serial port to the microcontroller at 19200bps for LPC21 ISP programming
    if (!OpenSerialPort(IspEnvironment, IspEnvironment->baud_rate))
    {
        DebugPrintf(1, "Exiting as COM port unavailable\n");
        return 0;
    }

	if(!IspEnvironment->TerminalOnly)
		ResetTarget(IspEnvironment, PROGRAM_MODE);

    ClearSerialPortBuffers(IspEnvironment);

    /* Perform the requested download.                              */
    if ((IspEnvironment->ProgramChip || IspEnvironment->DetectOnly) && !IspEnvironment->TerminalOnly)
    {
        switch (IspEnvironment->micro)
        {
#ifdef LPC_SUPPORT
        case PHILIPS_ARM:
			//Hardcode the programming bps to 38400bps for Omnima LPC21XX products
			IspEnvironment->baud_rate="38400";
            downloadResult = PhilipsDownload(IspEnvironment);
            break;
#endif

#ifdef AD_SUPPORT
        case ANALOG_DEVICES_ARM:
            downloadResult = AnalogDevicesDownload(IspEnvironment);
            break;
#endif
		default:
				break;
        }

        if (downloadResult != 0)
        {
            CloseSerialPort(IspEnvironment);
            exit(downloadResult);
        }
    }

    if (IspEnvironment->StartAddress == 0 && !IspEnvironment->TerminalOnly)
    {
        /* Only reset target if startaddress = 0
        * Otherwise stay with the running program as started in Download()
        */
        ResetTarget(IspEnvironment, RUN_MODE);
    }
    
    //Switch to terminal baud
    CloseSerialPort(IspEnvironment);
    if (!OpenSerialPort(IspEnvironment, IspEnvironment->term_baud_rate))
    {
        DebugPrintf(1, "Exiting as COM port unavailable\n");
        return 0;
    }

    //Upload to flash
    if (IspEnvironment->extflash)
    {
    	DebugPrintf(1, "Checking external flash contents...\n");
        
        if (OmnimaAPIWaitForPrompt(&IspEnvironment->io, 1))
        {
            OmnimaAPIProgramFlash(&IspEnvironment->io , IspEnvironment->extflash);
            
            CloseSerialPort(IspEnvironment);
            OpenSerialPort(IspEnvironment, IspEnvironment->term_baud_rate);
        } else
        {
            DebugPrintf(1, "No API response\n");
        }
    }
    
    //Upload to SSD video memory
    if (IspEnvironment->ssdFile)
    {
    	DebugPrintf(1, "Uploading to SSD memory...\n");

        if (OmnimaAPIWaitForPrompt(&IspEnvironment->io, 1))
        {
            OmnimaAPISendFileToSSD(&IspEnvironment->io, IspEnvironment->ssdFile, 108544, 0);
		
            CloseSerialPort(IspEnvironment);
            OpenSerialPort(IspEnvironment, IspEnvironment->term_baud_rate);
        } else
        {
            DebugPrintf(1, "No API response\n");
        }
    }
    
    //Execute arbitrary Serial API command on the LCD as given by the cmd argument on the command line
    if (IspEnvironment->cmd)
    {
        DebugPrintf(1, "Executing command '%s'\n", IspEnvironment->cmd);
        OmnimaAPISendCmdWithSync(&IspEnvironment->io, 1, 0, "%s\n", IspEnvironment->cmd);
    }
    
    //Stream to LCD from local MJPEG file
    if (IspEnvironment->smjpeg)
    {
        DebugPrintf(1, "MJPEG streaming '%s'\n", IspEnvironment->smjpeg);
        OmnimaAPISendCmdWithSync(&IspEnvironment->io, 1, 0, "%s\n", IspEnvironment->cmd);
        OmnimaAPIStreamMJPEG(&IspEnvironment->io, IspEnvironment->smjpeg);
    }
    
    if (IspEnvironment->demoMode)
    {
        DebugPrintf(1, "Running LCD demo\n");
        CloseSerialPort(IspEnvironment);
        OmnimaLCDAPI_Demo(&IspEnvironment->serial_port, &IspEnvironment->term_baud_rate, 0);
    }

    debug_level = 1;    /* From now on there is no more debug output !! */

#ifdef TERMINAL_SUPPORT
	if (IspEnvironment->TerminalOnly || IspEnvironment->TerminalAfterUpload)
	{
		// Pass control to Terminal which will provide a terminal if one was asked for
		// User asked for terminal emulation, provide a really dumb terminal.
		CloseSerialPort(IspEnvironment);
		if (!OpenSerialPort(IspEnvironment, IspEnvironment->term_baud_rate))
		{
			DebugPrintf(1, "Exiting as COM port unavailable\n");
			return 0;      
		}
		Terminal(IspEnvironment);
	}
#endif

    CloseSerialPort(IspEnvironment);  /*  All done, close the serial port to the      */

    return 0;
}
#endif


/*void pf(int i, const char *cmd, va_list arp)
{
		char strCmdFmt[1024];
		
		DebugPrintf( 1, "Fmt: '%s'\n", cmd);
		vsnprintf(strCmdFmt, sizeof(strCmdFmt), cmd, arp);   
        DebugPrintf( 1, "Cmd: '%s'\n", strCmdFmt);
}

void tpf(int i, const char *fmt, ...)
{
    va_list arp;
    va_start(arp, fmt);
    pf(i, fmt, arp);
    va_end(arp);
}*/

/***************************** main *************************************/
/**  main. Everything starts from here.
\param [in] argc the number of arguments.
\param [in] argv an array of pointers to the arguments.
*/

#if !defined COMPILE_FOR_LPC21

#if defined INTEGRATED_IN_WIN_APP
int AppDoProgram(int argc, char *argv[])
#else
int main(int argc, char *argv[])
#endif
{
    ISP_ENVIRONMENT IspEnvironment;
	unsigned char IspEntered=0;

    DebugPrintf(2, "olcdtool version " VERSION_STR "\n");

    // Initialize ISP Environment
    memset(&IspEnvironment, 0, sizeof(IspEnvironment));		// Clear the IspEnviroment to a known value
    IspEnvironment.micro            = PHILIPS_ARM;			// Default Micro
    IspEnvironment.FileFormat       = FORMAT_HEX;			// Default File Format
    IspEnvironment.ProgramChip      = FALSE;				// Default to Programming the chip
    IspEnvironment.nQuestionMarks   = 100;
    IspEnvironment.DoNotStart       = 0;
	IspEnvironment.baud_rate		= "38400";				//Default programming speed is 38400bps
	IspEnvironment.term_baud_rate   = "230400";				//Default terminal speed is 115200bps
	strcpy(IspEnvironment.StringOscillator, "12000");		//Detault OSC is 12MHz for Omnima LPC2103 LCD	

    ReadArguments(&IspEnvironment, argc, argv);             // Read and parse the command line

	if (IspEnvironment.ProgramChip!=1 && IspEnvironment.TerminalOnly!=1)
	{
		IspEnvironment.TerminalOnly=1;
	}

    if (IspEnvironment.DontSendEnterISP && IspEnvironment.serial_port==0)
    {
        DebugPrintf(1, "DoNotEnterISP: must sepcify communication port with -port={]port}\n");
    }
    
	//If COM port or termbaud is not specified, try to detect it
	if (!IspEnvironment.serial_port || !IspEnvironment.term_baud_rate)
    if (!IspEnvironment.DontSendEnterISP)
    {
        DebugPrintf(1, "Detecting communication port\n");
        if (!DetectOLCDComPort(&IspEnvironment.serial_port, &IspEnvironment.term_baud_rate))
        {
            DebugPrintf(1, "Failed to detect communication port\n");
            DebugPrintf(1, " The communication port may be is use by another program\n");
            DebugPrintf(1, " The LPC21xx might already be in ISP mode\n");
            DebugPrintf(1, "     you can cycle power on the LCD and try again\n");
            DebugPrintf(1, " Check available ports using Device Manager (devmgmt.msc)\n");
            DebugPrintf(1, " or specify -port={comport} option\n");
            exit(1);
        }
    }

	//Detect Omnima API and if so issue the #@EnterISP command
	if (IspEnvironment.ProgramChip==1 && !IspEnvironment.DontSendEnterISP)
	{
		DebugPrintf(2, "Trying to enter ISP mode\n");
        if (!OpenSerialPort(&IspEnvironment, IspEnvironment.term_baud_rate))
        {
            DebugPrintf(1, "Exiting as COM port unavailable\n");
            return 0;          
        }
        
		IspEntered=OmnimaAPIEnterISP(&IspEnvironment.io, 1);
        
		if (!IspEntered)
		{
			DebugPrintf(2, "Failed to enter ISP mode automatically, reset the LPC21xx or try connecting P0.14 to GND\n");
		}
		CloseSerialPort(&IspEnvironment);
	}

    return PerformActions(&IspEnvironment);                   // Do as requested !
}

#endif // !defined COMPILE_FOR_LPC21

#if !defined COMPILE_FOR_LPC21
int lpctest(char* FileName)
{
    ISP_ENVIRONMENT IspEnvironment;

    // Initialize debug level
    debug_level = 2;

    // Initialize ISP Environment
    memset(&IspEnvironment, 0, sizeof(IspEnvironment));        // Clear the IspEnviroment to a known value
    IspEnvironment.micro        = PHILIPS_ARM;                 // Default Micro
    IspEnvironment.FileFormat   = FORMAT_HEX;                  // Default File Format
    IspEnvironment.ProgramChip  = TRUE;                        // Default to Programming the chip
    // IspEnvironment.input_file   = FileName;
    IspEnvironment.ControlLines = TRUE;
    IspEnvironment.serial_port  = "COM2";
    IspEnvironment.baud_rate    = "19200";
    IspEnvironment.nQuestionMarks = 100;
    IspEnvironment.DoNotStart = 0;
    strcpy(IspEnvironment.StringOscillator, "25000");

    return PerformActions(&IspEnvironment);                    // Do as requested !
}
#endif
